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Google Professional-Cloud-Network-Engineer Exam With Confidence Using Practice Dumps

Exam Code:
Professional-Cloud-Network-Engineer
Exam Name:
Google Cloud Certified - Professional Cloud Network Engineer
Certification:
Google Cloud Platform
Vendor:
Google
Questions:
233
Last Updated:
Dec 17, 2025
Exam Status:
Stable
Google Professional-Cloud-Network-Engineer

Professional-Cloud-Network-Engineer: Google Cloud Platform Exam 2025 Study Guide Pdf and Test Engine

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Google Cloud Certified - Professional Cloud Network Engineer Questions and Answers

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Question 1

Your end users are located in close proximity to us-east1 and europe-west1. Their workloads need to communicate with each other. You want to minimize cost and increase network efficiency.

How should you design this topology?

Options:

A.

Create 2 VPCs, each with their own regions and individual subnets. Create 2 VPN gateways to establish connectivity between these regions.

B.

Create 2 VPCs, each with their own region and individual subnets. Use external IP addresses on the instances to establish connectivity between these regions.

C.

Create 1 VPC with 2 regional subnets. Create a global load balancer to establish connectivity between the regions.

D.

Create 1 VPC with 2 regional subnets. Deploy workloads in these subnets and have them communicate using private RFC1918 IP addresses.

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Question 2

You need to create a GKE cluster in an existing VPC that is accessible from on-premises. You must meet the following requirements:

    IP ranges for pods and services must be as small as possible.

    The nodes and the master must not be reachable from the internet.

    You must be able to use kubectl commands from on-premises subnets to manage the cluster.

How should you create the GKE cluster?

Options:

A.

• Create a private cluster that uses VPC advanced routes.

•Set the pod and service ranges as /24.

•Set up a network proxy to access the master.

B.

• Create a VPC-native GKE cluster using GKE-managed IP ranges.

•Set the pod IP range as /21 and service IP range as /24.

•Set up a network proxy to access the master.

C.

• Create a VPC-native GKE cluster using user-managed IP ranges.

•Enable a GKE cluster network policy, set the pod and service ranges as /24.

•Set up a network proxy to access the master.

•Enable master authorized networks.

D.

• Create a VPC-native GKE cluster using user-managed IP ranges.

•Enable privateEndpoint on the cluster master.

•Set the pod and service ranges as /24.

•Set up a network proxy to access the master.

•Enable master authorized networks.

Question 3

Your company has 10 separate Virtual Private Cloud (VPC) networks, with one VPC per project in a single region in Google Cloud. Your security team requires each VPC network to have private connectivity to the main on-premises location via a Partner Interconnect connection in the same region. To optimize cost and operations, the same connectivity must be shared with all projects. You must ensure that all traffic between different projects, on-premises locations, and the internet can be inspected using the same third-party appliances. What should you do?

Options:

A.

Configure the third-party appliances with multiple interfaces and specific Partner Interconnect VLAN attachments per project. Create the relevant routes on the third-party appliances and VPC networks.

B.

Configure the third-party appliances with multiple interfaces, with each interface connected to a separate VPC network. Create separate VPC networks for on- premises and internet connectivity. Create the relevant routes on the third-party appliances and VPC networks.

C.

Consolidate all existing projects’ subnetworks into a single VPC. Create separate VPC networks for on-premises and internet connectivity. Configure the third-party appliances with multiple interfaces, with each interface connected to a separate VPC network. Create the relevant routes on the third-party appliances and VPC networks.

D.

Configure the third-party appliances with multiple interfaces. Create a hub VPC network for all projects, and create separate VPC networks for on-premises and internet connectivity. Create the relevant routes on the third-party appliances and VPC networks. Use VPC Network Peering to connect all projects’ VPC networks to the hub VPC. Export custom routes from the hub VPC and import on all projects’ VPC networks.

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